Manufacturer Part Number
TC4469EOE
Manufacturer
microchip-technology
Introduction
The TC4469EOE is a quad high-speed, high-current MOSFET driver from Microchip Technology. It is designed to provide high-current gate drive for N-channel and P-channel power MOSFETs and IGBTs in a wide range of power conversion applications.
Product Features and Performance
4 independent, high-speed, high-current MOSFET/IGBT drivers
Capable of driving N-channel and P-channel MOSFETS
2A peak source/sink current capability
15ns typical rise/fall time
5V to 18V supply voltage range
8V/2.4V logic-level input thresholds
Inverting and non-inverting input options
Operating temperature range of -40°C to 150°C
Product Advantages
High-speed and high-current gate drive for efficient power conversion
Wide supply voltage range for flexibility in power system design
Independent driver channels for customizable configurations
Robust thermal performance for demanding applications
Key Reasons to Choose This Product
Reliable and high-performance gate driver solution from a trusted manufacturer
Scalable design with multiple driver channels for flexible system integration
Optimized for efficient switching of power MOSFETs and IGBTs
Suitable for a wide range of power conversion applications
Quality and Safety Features
Designed and manufactured to Microchip's high quality standards
Robust thermal performance and protection features for reliable operation
Compliance with relevant safety and regulatory standards
Compatibility
The TC4469EOE is a direct replacement for the TC4469 and is compatible with a wide range of power MOSFET and IGBT devices.
Application Areas
Switch-mode power supplies (SMPS)
Motor drives
Inverters and converters
Industrial automation and control systems
Renewable energy systems
Product Lifecycle
The TC4469EOE is an active product in our website's sales team's portfolio. There are no immediate plans for discontinuation. Customers are advised to contact our website's sales team for information on any potential alternative or equivalent models.